Adding and recording machine.



win. PIKE, Ja.. ADDING AND RECORDING MACHINE.

APPLIOATION FILED uns, 1904.

` Patented Jan. 7, 1913.

13 SHEETS-SHEET 1.

Jil@ rfwgs.

W. H. PIKE, JR. ADDING AND RECORDING MACHINE.

APPLICATION FILED MAY 25, 1904.

1,049,91 1 Patented JalL 7, 1913.

13 SHEETS-SHEET 2.

avent/0r wh/esse.; L fw f w H PIKE JB ADDING AND RECORDING MAGHINE.

APPLIOATION FILED HAY 25, 1904.' 1,049,91 1, l Patented Jan..7,1913.

' y 1a SHEETS-SHEETS.

W. H.\PIKE, JR. y ADDING AND RECORDING MACHINE.

Patented Jan. 7, 1913.

13 SHEETS-SHEET 4.

APPLIOATION FILED MAY 25, 1904. 1,049,9 1 1 W. H. PIKE, JR. ADDING AND RECORDING MACHINE.

AIILIOATION FILED MAY 25, 1904.

1,049,91 1. Patented Jan. 7, 1913.

13 SHEETS-SHEET 5.

W. H. PIKE, JB. ADDING AND REGORDING MACHINE.

APPLICATION FILED MAY 25, 1904.

Patented Jlll. 7, 1913. 13 SHEETS-SHEET s.

QM NN@ MNM.

ZU/ness v A. 03m/W.

W. H. PIKE, JR. ADDING AND RECORDING MACHINE.

APPLICATION FILED MAY 25, 1904.

Patented Jan. 7, 1913.

13 SHEETS-SHEET 7.

W. H. PIKE, Jn. ADDING AND RECORDING MACHINE. AiPLIoATIoN FILED MAY 25, 1904.

1,049,91 1 Patented Jan. 7, 1913.

13 SHEETS-SHEET 8.

W. H. PIKE, JB. ADDING AND REGORDIIIG MACHINE.

APPLICATION FILED MAY 25, 1904. 1 049,91 1 Patented Jan. 7, 1913. i 13 SHEETS-SHEET 9.

mphmw) @mmm Q9 n wsu ha ENQ. mmm. QR I ab. SI

lllllllllllk QQ@ L m, QNQDN O. w25@ Patented. Jan. '7, 1913. 1s SHEETS-SHEET 1o.

W. H. PIKE, JN. ADDING AND RECORDING MACHINE.

APPLICATION FILEDMAY 25, 1904. 1,041,9,9 1 1.

QMQL-. I Hh .0. su@ o NNN. o A# I HMQR MQ NQR R8 .QMN \Q% -RMN NWS, SNN @AVN Uh QN@ @SQ QN. WI o o brwm W. H. PIKE, JR.

ADDING AND RECORDING MACHINE.

APPLIOATION FILED MAY 25. 1904. 1 ,049,91 1

Patented Jan. 7', 1913.

W. H. PIKE, JR. ADDING AND RECORDING MAGHNB.

D ml wu. .w --\\\\\\\x We,... EN m NME um A M m E am n n E .zu L mi W mi, H im, N m QS. 1-- m m @QN ,GNQN SQN/ 5N u frmm u n www. L 1.. wml -1. 1 MQW. EN raN MQW QN QNN M`N 9., um O Bm .3 .1

W. H. PIKE, JR. ADDING AND RECORDING MACHINE.

APPLIUATION FILED MAY 25, 1904'.

1,049,91 1 Patented Jan. 7, 1913..

13 SHEETS-SHEET 13.

UNITED srnfrns .PATENT @FFICE `VVILILJIAM PIKE, JR., 0F ORANGE, NEWJERSEY, ASSIG-NOR, BY MESNE ASSG-N MENTS, TO BURROUGHS ADDXNG MACHINE COMPANY, 0F DETROIT, MICHIGAN, A.

CORPORATION OF MICHIGAN.

Specification of Letters Patent.

Fatented Jan, 1912s.

original application led August 19, 1902, Serial No. 120,222. Divided and this application filed May 25,

Serial No. 209,673.

T0 aN 'whom it may concern.'

Be it known that I, WILLIAM lil. Finn, Jr., a citizen of the United States, residing at the city of Orange, county of Essex, State of New Jersey, have invented certain new and useful improvements in Adding and litecording Machines, of which the following is a specification.

This invention relates to adding and recording machines although some features oi' the invention may be used on adding machines which do not record.

The invention is particularly applicable to machines in which there is a separate series of keys for each adding wheel, but some features of the invention could be employed on adding machines using one series of keys only for all the adding. wheels, and it is to be understood that while lny invention as illustrated and described is embodied in a machine having several series of keys, l do not intend to restrict myself to the use o1 some ot' the features in any special class ot' machines.

The o-b'cct of my invention is generally to produce ilu adding machine capable of rapid action and which can be operated with a minimum of effort on the part of the opers` ator, and in which the possibility of involuntary error in manipulation isalmost entirely eliminated.

The invention will he 'fully described hereinafter, reference being had to the accompanying drawings in which Figure 1 is a perspective view of a machine embodying my invention; Fig, 2 is a sectional side elevation; Fig. 3 vis av plan view with `the paper carriage removed; Fig. 4. is a longitudinal central section of a portion of the machine; Fig. 5 is a sectional side elevation on line 5 5 of Figi 3, of the rear portion of the machine; Fig. 6 4is a similar View, also -on the line 5-5 of Fig.y

3, of the front portion of the machine; Fig.

7 is a part plan of Fig. 6; Fig. 8'..is aseo; tional elevation ofthe type strlking mecha-g nism` and adjuncts'; Fig. 82am enlarged view' of one of the typesand supports; Fig. '9 is`r a front view of Fig. 8; Fig. 10, is aside view of the total and sub-total actuating mechanisms; Fig. -11 is a plan view of Fig.

-10; Fig. 12 is a sectional elevation on the line 12-12 of Fig. 11; Fig. 13 is a detail perspective View of a detcnt shifting device used in connection with the total and subtotal mechanisms; Fig. 14 a side elevation of the driving and starting mechanism; Fig. 15 is a plan of the same in part sect1on; Fig. 10 is a sectional View of the key operated mechanism; Fig. 17 is a vri-tical section on line 17-17 of Fig. 16, looking in the direction of the arrow; Fig. 18 is a scctional side View of 'the adding mechanism on line 18*18 of Fig. 20; Fig. 19 is a similar view on line 19 19 of Fig. 20;' Fig. 20 is a plan view of a portion of the adding mech anism; Fig. 21, a detail View of the friction disks and ringsoi the driving mechanism; Fig. 22, a plan showing the arrangement ot' numbers at the'lower ends of the types or each carrier.

The dri/ving merma-A is the base; 313 are adding wheels, and 201 are keys in series, each series numbered 1 to 9. The working shaft 922, Figs. 4:', lll, 15, is a rock shaft with two arms 904 and 905, at one end and to the arm 904: is connected a link 109 also connected to the side of a cam disk 115, Figs. 5 and v14, on a short shaft 176 around which turns a hollow driving shaft175. All the movementsof the different parts of the machine necessary to add and record any number after depressing the necessary` keys, are imparted on asingle'movement or yrotation of the operating shaft 176, which "is then arrested at a point where the said parte have Vassumed their normal position of rest.' To

avoid the dela( labor and uncertainties resulting from operating the working shaft by hand, the shaft 175 is driven continuously from a suitable motor as by ajbelft on apulley 100, Fig. 1, and has such a frictional or other connection with the shaft 176 that the' two will turn togetherso long as the shaft '17 6 is free tomturn butwhen 'the rotation of the shaft 176v is 'arrested that ot' the shaft 17 5 may contini-ieJ'JAny suitable frictional or other connection capable of permitting the shaft 176 to be arrested when required may be used but one which has proved eiective will now be described. The

`shaft 176 is provided with a series ofdisksiJ JH100 fitted on the shaft to turn with 1t but movable on the shaft lengthwise. Alternat- `ing with these disks are rin s 101 fitted to,

turn loosely on the shaft lrrrand having projections 101a on their peripheries, and

between each ring 101 and disk 100 is a ring 180 of non-abrasive material, these rings 180 being also fitted to turn loosely on the shaft 176. The shaftc17 6 is threaded to receive a nut 150 and a spring washer 102 is interposed betweenthe nut and the outer disk 100;' and by adjusting the nut the rings and disks are pressed together. 4The inner end of the shaft 17 5 is enlarged and recessed so as to inclose the rings and disks and is providedwith suitable grooves 172 to receive the 'projections 101a of the rings 101.v The pressure of the nut 150 and washer 102 produces friction between the disks 100 and rings 101 and 180 which tends to turn the auxiliary shaft 176 lsupporting the disks.

l These parts constitute a friction clutch having driving and driven members which indraws sure the frictional connection between the Vshafts 17 5, 176, so that although the shaft 1751.(Fig. 15) rotates continuously, the shaft- 176;which operates the parts of thevmachine .,caln'not'start until a detent, for instance a latch 5178,'is lifted from the shoulder 110 of the 'cam disk 115. This results from depressing a key 103, Figs. 1 and 14, thereby-rocking a-` lever 105 connected therewith and raising a linku104 on the upper end of which bears a lug 134 on the latch 17 8. A spring 112 the shaft 176 oneach rotation pushes back v continuously. It will be seen that the working shaft is not actuated by the power of the operator, but is positively driven by the I motor to eifect a complete operation and is then automatically arrested, Athe operator simply depressing a starting device after the keys -have been properly adjusted to determine the amount to be indicated.

TLQ'add/ng or accumulating merma-The recording devices, as' shown, consist of type levers 403 (Figs. 4 to 8), one to each series pf keys, and which oscilla'te on a--shaft 42.0

a rack 405', which actua-tes the pinions 385, Figs. 4, 18.- 20, secured to the adding wheels 4313 carri-ed@ by a swinging frame D. Fixed p awls 307, Figs. 18, 19, 20, serve to lock the pinion's 385 when the frame D is raised .to

prevent aecidentalturning. Each rack 405 has a sliding movement on the strip 404 and is drawn back by a spring 460, Figs. 18, 19, 20. A lug` 461, Figs. 18, 19, on the rack projects into a recess 462 in the stripv` and Alimits thef sliding movement yof the rack.

down the latch 178. A cam 106 ony and each is jointed to a strip 404 carrying.

When the adding Wheels are turned in the direction of the arrow,'Fig. 18, the shoulders 311e" of cams 311 (one at the side of each wheel) are carried away from the lugs 303L on detents 303, and the inclined edge g of each cam 311 will nearly contact with the end of its detent 303 when the been turned nine units or steps. In moving the tenth step, the edge g will depress the detent which will thus carry a lug 303b "on the detent 303 out of the path of a stud 405a (Figs. 18 vand`20) on the rack that c0- acts with the adding wheel of the next higher order of numbers, and the rack will thus be permitted to movev a step beyond its normal position at rest and thus move its c0- acting pinion and adding wheel a'step upon the completed revolution of the cam 311 of the wheel of the lower order.

When the detent 303 is depressed, a vertical pawl 304, Figs. 18 and 19, will move forward over a shoulder 7L of the detent and then prevent it from rising until a frame G (Figs. 6, 18, 19)- swings back a bar 324 carried thereby and pushes forward the pawls 304 from off the shoulders z. of the detents 303 which are then lifted by springs 303B. The frame D is swung to carry the pinions of the adder wheels into and out of engagement with the racks by either of two independent means actuated from the working shaft. "Thus the lefthand arm 305 of the frame D, Figs. 6 and 7, connects withv a togwheel has V' gle link 310 jointed to the other toggle lirik 309, the movement of the toggle raising and lowering the frame D. The toggle is operated from a reciprocating link 714, the movement being limited by a lug on a .plate 310a at the end of the link 310.

The link 714 is connected to an arm 710 (Fig. 5) and as the shaft 922, (Figs. 5 and 12) oscillates, in one direction, the rear shoulder 901a on a plate 901 on said shaft con tacts with a stud 5, which swings forward; the-return movement brings the 'shoulder 901b to the stud, swinging back the lever 710.

The stem"202, Figs.'16 and 17, of each numbered key 201, has notches 2028L and 202b of different depths. Springs 280 lift the keys, and pawls 207 which are secured to longitudinal shafts 220, engage the notches and hold down the keys; the pawls of each series of keys being on the adj acent'shaft so 'that afterv one key of a series is depressed,

the depression of another key in the same 'series will swing out all the pawls and release the depressed key which will rise. The depression of the upper blank key of a row swings the pawls to liberate a key ofithat row improperly depressed, Athe upper key rising as soon as pressure is removed therefrom, as the notchesof such keys are not so arranged that they .wifi-be held down by the pawls.

.and the extent to which the number wheel is turned, the stops 430 being progressively farther from the key stems, so the strip moves to a greater extent in proportionas the key depressed indicates a higher number,.as shown, and the parts are arranged so that each strip has a movement of one step at each operation of the machine, even if no keys may have been depressed. This will bring the cip-her printing Jycharacter into printing line but without turning the adding Wheel. The normal position of the stop 430 on the strip 404 which eo-acts with each key numbered l, is two steps to the rear of said key, the position of the other stops 430 being progressively one step farther to the rear of its eo-aeting key stop, the stud 430 which co-aets with each 9 key being ten steps away.

A detent arm 205, Figs. 4, 13, 16, 17, secured on each shaft 220 near its end is held in the path of the stop 430 on the strip 404 near the No. 9 key by a spring 282, Fig. 13, which also tends to turn the shaft 220 and hold the pawls 207 against the key stems and in the notches thereof.

When all the keys in a column are up, the pawls 207 are all. in the deep notches 202, and the detent arm-205 of each shaft acts as a stop for the eo-acting strip 404, which can 'only move one step forward until its stop 430 strikes the arm 205, securing the result before stated. When one of said keys is depressed, its pawl 207 is swung o-ut from the deep notch and then enters the shallow notch 202 and holds the key down, and all the coaeting pawls swing out but not far enough to remove them from the deep notches .202b of the other keys of the series, but the coacting detent arm 205 is carried out of the path of the stop 430 on the strip 404, which;

canthen slide forward until its adjacent? stop 430 strikes the stein of the depressed key. y

The type lever shaft 420, Figs. 4 and 5, carries two'pendant arms 400, Fig. 3, connected 'b v a cross strip 401 and cross rod 402, the latter carrying a roll 402, Fig. 4, which bears on a reciprocating' cam plate 900 on t-he shaft 922. The strip 401 holds the lower ends of the type levers 403 in their rearmost positions each against the tension of a spring 4049.

The rack carrying strip 404 of each eolumn at each operation where no keys are depressed moves forward one step until arrested by the detent arm 205, and in this case the rack of said strip will not be moved.

When a numbered key is depressed, the

strip 404 moves forward until its stop strikes said key, carrying the rack, without turning the pinions, the frame D heilig normally elevated; after the movement of the strips ceases, the frame D and pinions are depressed automatically and each rack engages the pinion and on returning turns the pinion and adding wheel if they are engaged, the extent of revolution depending on the distance the strip 404 in returning to its position moves the rack.

To the swinging frame (i, Fig. and dotted lines, ltigs. 18, 19, are attached two longitudinal rods 300, Fig. 7, connected to a swinging frame K, Figs. 4, 5, 10, 12, 14, 16. A roller Ystud 951l on the plate 001, 4Figs. 5 vand 16, and a roller stud 951, Fig. 14, on the arm 005, Fig. 14, 'when the machine is`at rest, are in Contact with projections 907 and 907u on the frame l and the swinging frame G is thus held in forward position.

ln operating the machine, the shaft 022 is rocked and the roller studs on the plate 901 and arm 005 are first withdrawl'l. from the projections 007 and 007L1 the two rods 300 and the frame G are drawn to the rear by springs 300, Fig. 0, so that the pawls 304, Fig. 1S, will bear against the edges below the shoulders /i of the detents 30B under spring tension and the racks 405 can be held by their springs 460 with the lugs 405, Fig. 20, resting against the lugs 3031.

l/V hen a number key or keys have been de.- pressed, and the working shaft is operated, eac-h coperating strip 404 is carried forward tooan extent depending on the key depressed thel frame D is then depressed to bring each pinion 885 into engagement. with its rack 405, and on the next backward movement of caehstrip the vnumber wheel is turned to1 an extent corresponding to that to which the rack was carried forward.

lf any one wheel is turned suflieiently to depress the adiaeent detent' 303, the backward swing of the frame G will then permit the pawl \304 above said detent to swing :back when, having escaped contact with the yedge in front of the shoulders lli, it passes to a position above said shoulder and then holds down the detent until the eoacting rack 405 completes its movement and the action for carrying-to the next wheel-is effected.

, As the movements of the working parts of V, the machine terminate, the frame G swings forward and the pawls 304 are swung for ward to normal position and release the detents 303 which then rise. This movement of the frame G, also moves the racks 405 forward to normal position by the contact therewith of the cross bar 325 carried by the arms 308 of the frame G.

It will be understood that each spring 460 formsI a flexible connection between one of the strips 404 and the rack 405 supportedby said strip. Normally the detent 303b holds the rack 405 in such position that the spring 460 -connected to that rack is under tension. 5 If during the operation of the machine the strip 404 and rack 405 of the order to which an additional carrying operation .is to be imparted are stationary or in their normal .positions at the time the cam 311 of the wheel 313 of the next ylower order rocks the lever 303, the spring 460, being as aforesaid under tension, collapses and, although the strip 404 remainsfstationary, the rack 405 is moved relative to said strip through a distance corresponding to one step. lf, however, the spring and rack of the order to which the carrying is to be transmitted be in motion at the time when the detent 303b is removed from the path of the s'tud 405a therack will continue to move with the strip 404 throughout the entire movement of the latter, the spring 460 acting at such time merely `as a connecting link, between the strip and rack, and will not be stopped as it commonly is one step before the strip 404 completes 1ts rearward movement. That is, in the latter case the rack and strip will move together throughout the entire rearward movement of the strip whereas nor- A mally the detent 303b acting on the stud 405 stops the rearward movement of the rack one step in advance of the completion of the corresponding movement of the strip.

The registering or recording merma-The roller platen 880, Figs. 4, 5, 8, is below the curved arms 403b of the type levers 403, each as shown carrying ten sliding type bars 49.0 and each is, combined with a reciprocating member which operates it, said members shown as strips 404.

At each kfull operation effected by one rocking movement of the shaft 922, each type carrier will move at least one step, so that in all columns where no key is depressed the carriers will be in position to print ciphers, and in columns wherekeys are depressed the carriers will be moved different degrees to bring each type bar in position to print a igure corresponding to the key depressed in such column. rlhe type bars are moved -to effect the printing by spring actuated hammers 501, one to each type carrier. A series of pivoted catches 503, Fig'. 8, hold back the hammers, each of which has a lateral lug 501a on its forward end-engaging a hook 503b on the head of a swinging catch 503.

At each operation of the machine, the arm 903, Fig. 8, moves to the position indi cated in dotted lines, lifting at the end of its movement a link 511, and rocking a pawl carrying frame H on its shaft 530. In

columns where a key is depressed the type levers 403 will have moved sufficiently to carry projections 403EL above studs 559 on -across under the hammers.

' pawls 504 pivoted at 505EL to the frame H,

which pawls have hooks that, when the forward end of the frame H descends, will engage projections 503" of the respective catches 503 and swing back their upper ends and release the hammers. In columns where no key is depressed the type levers do not rise sufliciently to carry vtheir projections 403e above the roller studs 559, and when the pawls 504 co-acting with such columns descend their upper ends will. be pushed forward by the projections 403a and their hooks will not engage the projections 503c and consequently the hammers in such columns will not he released.

To print ciphers 'to the right of the columns of highest order in which a figure is printed, each catch 503 has a lug 503l1 engaging the catch 503 next to the right, (see Fig. 9) and the movement of one catch 503l 85 to release its hammer will he transferred to the next and so on, and thus effect the-movemont of all the other catches 503 to the right even if no key has been depressed. This permits the hammers to the right to be released to print ciphers but no catches to the left will be moved.

To restore the hammers to normal position, there is a swinging frame l, Fig. 8, consisting of the side levers 502 and con-l necting bars 550, 558, the latter extending A projection 900a on the cam 900 on the shaft 922 engages the bar 550 and swings the frame to lift the bar -558 and the hammers as the shaft 922 rocks on returning to position.

In starting, the frame lf swings under the action of the spring 590 to carry the bar 558 down, leaving the hammers free.

The adding or accumulating operations. To add different amounts together, the proper keys are depressed and the starting key 103, Fig. 14, is depressed, liftin the latch 178 and permitting the shaft 1 6'to make one effective movement, when theV connecting pitman 109 will rock the shaft 922 and -a reciprocating member in the form o the main-cam'900, Fig. `4, will be rocked and permit the frame J, Figs. 4 and 5, to -swing forward and thus permit the typelevers and the reciprocating members or strips 404 to move under the iniiuence of the springs 404n until in those columns where no keys are depressed, the strips are arrested by the detents 205, Figs. 13 and 16, and where keys 120 have been depressed the strips are arrested by their respective key stops.

The racks 405 rem-ain stationary, being held against the cross bar 325 by the springs 460 until the strips 404 have each moved one unit when the racks will also move. This permits each strip when no key is depressed to move sufficiently to bring the tyv e carrier into position to print a cipher at t e printing line.

messia The lirst portion 900b of the cam 900, Figs. 4 and 8, permits no movement of the frame J, Fig. 4; a second portion 900c perits the entire forward movement of the i' ame J; and a third portion 9001 does not adect the movement of the frame. This con-k struction of the cam allows certain movements of other parts while the strips 404 and racks 405 are not in motion. After the strips are arrested the pinions are thrown into gear with the racks and on the return motion ofthe cam 900, the strips 404 and racks 405 are returned to their normal position, the racks turning the pinions a number of units depending on the extent of return movements of the stri s 404 and equal to the numbers expressed y the depressed keys. The'inal part of the return move- .ment of the shaft 922 causes the plate 901, Figs. 5 and 10, to move the leverl 710, and lthe link 71.4 to break the jointof the toggle 309, 810, and permit the frame D, Fig. 19, to rise and disengage the pinions from the racks.

To lock down a depressed key and lock all others keys in the same series against depression during the o erating movements of the shaft 922, a serles of sliding strips 204, Figs. 16, v17, have projections 204b adapted to enter holes 204-in the key stems which are depressed. Thestrips are moved in one direction by springs 204*1v and in the other' by a cross rod 927 carried by the traine K, Figs. 4, 16. When the shaft 922 begins to oscillate, the frame K will swing and allow the strips 204 to move toward the rear under shoulders 202x, Figs. 16 and 17, of

keys that are not depressed and prevent them from moving down, and a projection 2041 will enter the hole 204c of a de ressed ke and lock it down even its paw be accidentally disengaged from* its notch 2022 The shafts 220 can be rocked automatically to throw out all the pawls 207 by a sliding cross strip 208, Figs. 13, 16, 17 having elongated slots into which reject lugs 205 on the arms 205. This is e ected from the rocking of the shaft 922. Thus at the commencement of the motion of the shaft 922, Fig. 14, the arm 905, carries a latch916 past a stud 910lL on a lever' 910, a spring 916n permitting the latch to yield and pass by the stud and on the return motion of the shaft 922, the beveled edge of the latch 916 contacting with the stud 910, swings the lever 910, and passing by permits the lever to return to its `normal position under the action of a spring 1000, Fig. 14. This lever 910 is connected y a lmk 915 with an angle lever 911, Figs. 14, 15, 16, ivoted at 911n to the side frame and provi ed with an arm 9111, Fig.' 17, which extends loosely throu fh a slot in the end of the stri 208, andJ the movement of the lever 910 wi l thus rock the lever 911 and slide the strip 208 in the drection of the arrow, Fig. 17.,"'and thereby withdraw all the pawls 207 and release any key which may be have been depressed.

Recording totals and 8ub-t0tals.-To record the total, it is necessary to control the movements of the recording devices by the tracted as the wheels and pinions return to the lzero position. The pinion cams 311. Figs. 18, 20, arrest the reverse rotation of the wheels at the zero position when their shoulders engage the lugs 303'l of the de tents 303. As, in accumulating, the wheels have advanced in the direction of the arrow, Fig. 18, a number of steps from the zero position, so in returning to the zero position the racks and strips are allowed to move forward the same number of steps until the shoulders of the cams contact wlth the detents, thus moving the t pe-levers correspondingly and bringing t e roper types in position to indicate the tota as accumulated. The accumulating wheels will be left at zero, after registering or printing the total, except when the total is to be re-aceumulated on the wheels 318, which is effected by keeping the racks and pinions engaged when theracks are again moved to the rear or restored. These results are effected by so setting the parts as to va the times of engaging and disengaging t e racks and pin- 1ons, and one means of doin this is by two keys, distinguished as tota and sub-total keys 702R and 7021, Figs. 12, 16 and 17.

' At the rear of the shaft 922 is a shaft on which rocks a vlate 707 carrying two dogs 711, 712, norma ly held in contact with stops by a connecting spring 707 shown in dotted lines, Fi .12. 718, which 'is raised by a spring 713 and has a notch adapted to engage the stud 750 on the lever 710. Two parallel levers 705, 706, Figs. 10 and 11 extend past the keys 7021', 702, and past the plate 901, and the lever 706 is connected by a link 715 (Fig. 9) with the link 713.

When the total key 702, Figs. 2, 10, 12, 1.7, is depressed, its stud 787K, Figs. 10 and 11, depressies the lever 706, Fi s. 10 and 11, and the connected link 713, t le slot in which, Figs. 10 and 11, enga es the stud 750 on the lever 710 so that t e lever 710 and link 714 will be operated from the plate 707. When the shaft 922 commences to rock clockwise, the roll 952, Figs. 5 and l2, on the arm of the plate 901 moving upward To this plate is pivoted a link l contacts 'with the rear edge of a dog1 712 rocking the plate 707 in the clockwise irection and the link 713 (now connected to the lever 710, Fig. through the link 714 and,

o row, Fig. 18, return to the zero position where they are arrested by the shoulders of the cams 311 contacting with the projections 303a of the detents 303. The racks will be held in their forward position during the printing action while the part 9001 of the cam 900 moves in'one direction past the roll 402a, Figs 4 'and 8. On the return movement, the roll 952, Fig. 12, contacts withthe forward edge of the upper dog 711, and

rocks the plate 707 in the direction of its arrow, and the link 713 pulls the lever 710 rearwardly bending the toggle, and lifting the frame D disengaging the pinions from the racks. The continued movement of the 5 cam 900 anti-clockwise Figs. 4 and 8, re-

stores the racks to their forward position.

The sub-total key 7021, Figs. 2, 10, 11, 12, 17, operates on a lever 706 and on a second. lever 705, Fig. 11, which has a lug 705g,

Figs. 10, which when the lever is depressed,

contacts with the tail of the dog 711 and depresses the tail of this dog, swinging it out of the downward path of the ro-ll 952, which therefore in such case cannot operate it to rock the plate 707 and renders the said plate then inoperative to shift the lever 710 and the racks. The sub-total key stud 737L projects over both the 1evers705 and 706, so that when the sub-total key is depressed, the lever 706 is carried down with the lever 705 and the open-slotted link 713 is engaged with the stud 750 on the leiter 710, and therefore when the machine is thus operated, the pinions are thrown into engagement with the racks lon the plate 707 being rocked by the contact of the stud 952 and pawl 712 before the racksmove for ward, and they continue engaged on thereverse movement (as the stud 952 on descending will not contact with the pawl 7113) until the racks are restored to their rear position, when the frame D israised and the pinions are disengaged by the action of the front shoulder 901b (Fig. 12) on the'plate 901, contacting with the'stud. 750

on the lever 710 as in accumulating.

The keys 7 02R and 7 02L each carries a i stud 7 02a, and when either of the keys 7 02h-EL is depressed, its stud swings anchor plate 703, Fig. 1 2, out of its path and under the other stud, thus preventing the other key from being depressed, so that both cannot be depressed at once.

There are two pawls 704, Fig. i12, each adapted to engage a notch 702b in a key stem, and each pawl has a stud 704a which when the machine is at rest engages a shoulder 3001, Figs. 6 and 12, of the connecting rod 300, and whenfthe shaft 922 has about completed its movement the rod 300 will be moved with the frame K toward the front of the machine and its shoulder 300x Y will engage the stud 704L on the pawl and disengage the latter from the key stem, and the key will then rise under the influence of its spring 702".

It is desirable to prevent the machine from being operated when either of the total keys is in a partly depressed position, and to this end there is provided a detent, the same being a lug 137, Fig. 14.y There is pivoted'to the slotted link 713, a link 912 dottedlines Fig. 10 connected to an arm 913 on a cross shaft 926 carryingv also an arm 914, Fig. 14, extending upward at the side of the starting leverv 105, and the lug 137 is on this lever and when the starting key is depressed, is in the path of movement of the arm 914. If either the arm 914 or lug 137 is moved slightly out of its normal position, the movement ofthe other is prevented.

When either total key is fully depressed, the rock shaft 926 rocked from the link 713 Fig. 10 has moved the arm 914 so as not to obstruct the lug 137 and the forward end of the lever 105 can then be depressed. When either of the total keys 702R or 702L is depressed, it is necessary t0 swing the detents 205 out of the paths of the studs 430 so the strips 404 and racks may move under the control of the/pinions. This is eeoted, Fig. 12, by a projection 702y on 'each of the total keys, which projections contact with a stud 213a on a pivoted arm 213, Figs. 3 and 17, the rear end of which, Figs. 12 -and 13, contacts with a bell-crank lever 211, one end of which enters a slot in the strip'208, but does not interfere with the usual individual movements of the de-" tents. When a total key is depressed, its projection 7 02Y de resses the arm 213 which rocks the bell cran lever 211 and moves the strip to the left, thus swinging all the detents out of their normal positions and re` leasing thestrips 404.'

To prevent both total and subtotal keys being depressed at the saine time, ananchor/ plate 703 is pivoted between the total ke stems 702R and 702i', and normally he d in a central position by a spring 703B. 'lhc plate has two projecting arms 703b with angular `faces.

v From the foregoing, it will be seen, referring to Figs. 5, 6, 10 and 11, that the swinging of the lever 710 straightens or bends 'the toggle and is the means of throw ing the racks and pinions into out of gear, and that in the normal operation of the machines in accinnulating, the lever 710 is swung forward by the contact of the shoulder 901n of the plate 901, to bring the gears into engagement, and on the next action the shoulder' 901b reverses this arrangement. It will further be seen that when the total key 702R is depressed, depressing the levers 706A and 713, the lever 710 is then operatively connected with the plate 707, and as the plate 707 is rocked by the contact. of the parts 952 and 712, the lever 710 swings with its stud 750 following the shoulder 901", so that t-he lever 710 swings forward (when normally it would be at rest) and the gears are engaged at once as the lever 710 begins its movement. 'lhc racks are then engaged with the pinions before the strips ymove forward.

When on the reverse rocking of the shaft 922, the part 952 strikes the part 711, the plate 707 is rocked in the reverse direction and the lever 710 swung back and the gears are disengaged when the wheels are at Zero and before the racks move backward.

When thev sub-tital key .702L is depressed and both the levers 705 and 706 carried down, the stud 705n so tilts the part 71.1 that 1t will not be struck by the part 952, and the plate 707 will not be rocked by the contact of these parts, so that the lever 710 will not swing back until the shoulder 901b strikes the stud 750 on said lever, with the result that the gears remain in engagement during the backward movement of the strips.

From the foregoing it will be seenthat the accumulating devices may at different times be independently controlled by two wholly distinct and independent means, which may be independently manipulated to determme the subsequent operations of the machine; first, the means that for accumulating causes the gears to be put into engagement on one movement of the working shaft and lout of engagement on the reverse movement; second, the means that to secure a total causes the yparts to be so .set that the gears will be thrown into and out of connection at different times from that resulting from the first means in accumulating. Further it will be seen that the said accumulating devices may be put under the joint action of both the said means in printing a sub-total. There are therefore devices capable of adjustment by different independent means, one set of devices that.

onl o erate in accumulatinv and another rset of devices that only operate in taking a total or subtotal. This distinguishes the machine herein set forth from all others.

The above described machine also differs from all others in that the operations of the parts in printinf a total or sub-total are all determined by the positions of distinct and independent devices separately adjusted or set in position before the operation of the machine begins and without any manipulation of the parts during the said operation; that is, causing the machine to print a total` v,or sub-total is secured by the manipulation of parts wholly before commencement of the operation of the machine. The importance of these features is evident in considering the operations when the machine is driven in its operations by a motor at a high speed. Constructions which, in taking a total or sub-total, require manipulation of the parts during the operation of the machine may be effectively employed when the machine is worked bv hand and time is afforded to' change adjustments at proper intervals during such working, but when the entire working operation is effected in a fraction of a second, as with power driven machines, it is impossible to shift the positions ofparts manually at any predetermined moment, and it will be seen that by providing separate and independent devices that may be set before the operations begin and which will then positively and automatically control such operations, I secure the effective taking of totals and sub-totals at the high speed operations of a ypower driven machine.

The stopping and start-ing means may.be embodied in different forms and used with different control devices for actuating the registering devices whatever be their character whether merely indicators or recorders, and it will be seen that while thee is a continuously rotating driving shaft, the

Aworking shaft from which the other part-s are actuated is rocked only a part revolution after being connected with the driving shaft and is thenv automatically arrested after effecting a complete action of the parts required to set the registering device. It will further be seen that the temporary connection between the two shafts results from the depression of the starting key only and that therefore any of the number or other keys may be set or reset before any operation on the register results, and that after any number is registered, the connection with the motor ceases automatically. It will further be. seen that by' providing means to separate the pinions and racks prior to the movements of the racks in either direction, the numbers may be added or subtracted or totalized asrequired, and that the shifting of the )arts to engage or disengage the same may ie effected through any suitable means by the operation of the special keys, and that the adjustment of parts'to indicate or securel a total or subtotal is effected before the operating parts are put into connection with the motor.

In some cases it is desirable in typewriting or computing machines to vary the force of the printing levers. To effect this, in the present instance, the springs which actuate the hammers are attached to a frame 

